Driving Environment Perception Based on the Fusion of Vehicular Wireless Communications and Automotive Remote Sensors

Minjin Baek;Jungwi Mun;Woojoong Kim;Dongho Choi;Janghyuk Yim;Sangsun Lee;Baek; Minjin;Mun; Jungwi;Kim; Woojoong;Choi; Dongho;Yim; Janghyuk;Lee; Sangsun;

doi:10.3390/s21051860

Driving Environment Perception Based on the Fusion of Vehicular Wireless Communications and Automotive Remote Sensors

Clicks: 193

ID: 267714

2021

Free PDF

Article Quality & Performance Metrics

Overall Quality Improving Quality

0.0 /100

Combines engagement data with AI-assessed academic quality

Reader Engagement Emerging Content

0.3 /100

1 views

1 readers

AI Quality Assessment

Not analyzed

Abstract

EN
- Turkish
- Spanish
- Portuguese
- Arabic
- Chinese
- French
- German
- Indonesian
- Russian
- Thai

Driving environment perception for automated vehicles is typically achieved by the use of automotive remote sensors such as radars and cameras. A vehicular wireless communication system can be viewed as a new type of remote sensor that plays a central role in connected and automated vehicles (CAVs), which are capable of sharing information with each other and also with the surrounding infrastructure. In this paper, we present the design and implementation of driving environment perception based on the fusion of vehicular wireless communications and automotive remote sensors. A track-to-track fusion of high-level sensor data and vehicular wireless communication data was performed to accurately and reliably locate the remote target in the vehicle surroundings and predict the future trajectory. The proposed approach was implemented and evaluated in vehicle tests conducted at a proving ground. The experimental results demonstrate that using vehicular wireless communications in conjunction with the on-board sensors enables improved perception of the surrounding vehicle located at varying longitudinal and lateral distances. The results also indicate that vehicle future trajectory and potential crash involvement can be reliably predicted with the proposed system in different cut-in driving scenarios.

Reference Key	baek2021sensorsdriving Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	Minjin Baek;Jungwi Mun;Woojoong Kim;Dongho Choi;Janghyuk Yim;Sangsun Lee;Baek, Minjin;Mun, Jungwi;Kim, Woojoong;Choi, Dongho;Yim, Janghyuk;Lee, Sangsun;
Journal	sensors
Year	2021
DOI	10.3390/s21051860 Searching for DOI...
URL	https://www.mdpi.com/1424-8220/21/5/1860 https://doi.org/10.3390/s21051860
Keywords	sensor fusion risk assessment advanced driver assistance system v2x communications connected and automated vehicle cooperative perception trajectory prediction collision warning

Citations

No citations found. To add a citation, contact the admin at info@scimatic.org

Comments

Login to comment Register

No comments yet. Be the first to comment on this article.